From d43d4ed9bf448ddb9bb2db8869c337ae4c9a59be Mon Sep 17 00:00:00 2001 From: Jordan Carlin Date: Fri, 28 Jun 2024 15:51:10 -0700 Subject: [PATCH] Remove individual install scripts --- bin/wally-tool-chain-install-redhat.sh | 368 ------------------------- bin/wally-tool-chain-install.sh | 242 ---------------- 2 files changed, 610 deletions(-) delete mode 100755 bin/wally-tool-chain-install-redhat.sh delete mode 100755 bin/wally-tool-chain-install.sh diff --git a/bin/wally-tool-chain-install-redhat.sh b/bin/wally-tool-chain-install-redhat.sh deleted file mode 100755 index 8ad49a57f..000000000 --- a/bin/wally-tool-chain-install-redhat.sh +++ /dev/null @@ -1,368 +0,0 @@ -#!/bin/bash -########################################### -## Tool chain install script. -## -## Written: Ross Thompson ross1728@gmail.com -## Created: 18 January 2023 -## Modified: 22 January 2023 -## Modified: 23 March 2023 -## Adapted for Red Hat: June 19 2024, Jordan Carlin jcarlin@hmc.edu -## -## Purpose: Open source tool chain installation script -## -## A component of the CORE-V-WALLY configurable RISC-V project. -## https://github.com/openhwgroup/cvw -## -## Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University -## -## SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1 -## -## Licensed under the Solderpad Hardware License v 2.1 (the “License”); you may not use this file -## except in compliance with the License, or, at your option, the Apache License version 2.0. You -## may obtain a copy of the License at -## -## https:##solderpad.org/licenses/SHL-2.1/ -## -## Unless required by applicable law or agreed to in writing, any work distributed under the -## License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, -## either express or implied. See the License for the specific language governing permissions -## and limitations under the License. -################################################################################################ - -# MODIFY FOR YOUR MACHINE -# Increasing NUM_THREADS will speed up parallel compilation of the tools -#NUM_THREADS=2 # for low memory machines > 16GiB -NUM_THREADS=8 # for >= 32GiB -#NUM_THREADS=16 # for >= 64GiB - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Checking Distro and Permissions and Setting Installation Directory" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" - -set -e # break on error - -# Get distribution information -test -e /etc/os-release && os_release="/etc/os-release" || os_release="/usr/lib/os-release" -source "$os_release" - -# Check for compatible distro -if [[ "$ID" = rhel || "$ID_LIKE" = *rhel* ]]; then - FAMILY=rhel - if [ "$ID" != rhel ] && [ "$ID" != rocky ]; then - echo "For Red Hat family distros, the Wally install script has only been tested on RHEL and Rocky Linux. Your distro \ -is $PRETTY_NAME. The regular Red Hat install will be attempted, but there will likely be issues." - fi - if [ "${VERSION_ID:0:1}" = 8 ]; then - RHEL_VERSION=8 - elif [ "${VERSION_ID:0:1}" = 9 ]; then - RHEL_VERSION=9 - else - echo "The Wally install script is only compatible with versions 8 and 9 of RHEL and Rocky Linux. You have version $VERSION." - exit 1 - fi -elif [[ "$ID" = ubuntu || "$ID_LIKE" = *ubuntu* ]]; then - FAMILY=ubuntu - if [ "$ID" != ubuntu ]; then - echo "For Ubuntu family distros, the Wally install script has only been tested on standard Ubuntu. Your distro \ -is $PRETTY_NAME. The regular Ubuntu install will be attempted, but there may be issues." - fi -else - echo "The Wally install script is currently only compatible with Ubuntu and Red Hat family \ -(RHEL or Rocky Linux) distros. Your detected distro is $ID. You may try manually running the \ -commands in this script, but it is likely that some will need to be altered." - exit 1 -fi - -# Check if root -ROOT=$( [ "${EUID:=$(id -u)}" = 0 ] && echo true || echo false); - -# All tools will be installed under the $RISCV directory. By default, if run as root (with sudo) this is set to -# /opt/riscv. Otherwise, it is set to ~/riscv. This value can be overridden with an argument passed to the script. -if [ "$ROOT" = true ]; then - export RISCV="${1:-/opt/riscv}" -else - export RISCV="${1:-$HOME/riscv}" -fi - -export PATH=$PATH:$RISCV/bin:/usr/bin -export PKG_CONFIG_PATH=$RISCV/lib64/pkgconfig:$RISCV/lib/pkgconfig:$RISCV/share/pkgconfig:$PKG_CONFIG_PATH -mkdir -p "$RISCV" - -echo -e "\nDetected information:" -echo "Distribution: $PRETTY_NAME" -echo "Version: $VERSION" -echo "Running as root: $ROOT" -echo "Installation path: $RISCV" - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Dependencies from Package Manager" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -if [ "$FAMILY" = rhel ]; then - # Enable extra package repos - sudo dnf install -y dnf-plugins-core - if [ "$ID" = rhel ]; then - sudo subscription-manager repos --enable "codeready-builder-for-rhel-$RHEL_VERSION-$(arch)-rpms" - sudo dnf install -y "https://dl.fedoraproject.org/pub/epel/epel-release-latest-$RHEL_VERSION.noarch.rpm" - else - if [ "$RHEL_VERSION" = 8 ]; then - sudo dnf config-manager -y --set-enabled powertools - else # Version 9 - sudo dnf config-manager -y --set-enabled crb - fi - sudo dnf install -y epel-release - fi - - # Update packages and install additional core tools - sudo dnf update -y - sudo dnf group install -y "Development Tools" - - # Packages are grouped by which tool requires them, split by line. - # If mutltipole tools need a package, it is included in the first tool only - # General/Wally specific, riscv-gnu-toolchain, qemu, spike, verilator - sudo dnf install -y git make cmake python3.12 python3-pip curl wget ftp tar pkgconfig dialog mutt ssmtp gcc-gfortran boost-devel\ - autoconf automake libmpc-devel mpfr-devel gmp-devel gawk bison flex texinfo gperf libtool patchutils bc gcc gcc-c++ zlib-devel expat-devel libslirp-devel \ - glib2-devel libfdt-devel pixman-devel bzip2 ninja-build \ - dtc boost-regex boost-system \ - help2man perl clang ccache gperftools numactl mold - # Extra packages not availale in rhel8, nice for verialtor and needed for sail respectively - if [ "$RHEL_VERSION" = 9 ]; then - sudo dnf install -y perl-doc z3 - fi - - # A newer version of gcc is required for qemu - sudo dnf install -y gcc-toolset-13* - source /opt/rh/gcc-toolset-13/enable # activate gcc13 -fi - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Setting up Python Environment" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -# Create python virtual environment so the python command targets our desired version of python -# and installed packages are isolated from the rest of the system. -cd "$RISCV" -if [ ! -e "$RISCV"/riscv-python/bin/activate ]; then - python3.12 -m venv riscv-python -fi -source "$RISCV"/riscv-python/bin/activate # activate python virtual environment - -# Install python packages -pip install -U pip -pip install -U sphinx sphinx_rtd_theme matplotlib scipy scikit-learn adjustText lief markdown pyyaml meson testresources riscv_config -pip install -U riscv_isac # to generate new tests, such as quads with fp_dataset.py - -# Needed for sail and not availabe from dnf for rhel 8 -if [ "$RHEL_VERSION" = 8 ]; then - pip install -U z3-solver -fi -source "$RISCV"/riscv-python/bin/activate # reload python virtual environment - -# Extra dependecies needed for rhel 8 that don't have new enough versions available from dnf -if [ "$RHEL_VERSION" = 8 ]; then - # Newer versin of glib required for Qemu. - # Anything newer than this won't build on red hat 8 - if [ ! -e "$RISCV"/include/glib-2.0 ]; then - echo -e "\n*************************************************************************" - echo -e "*************************************************************************" - echo -e "Installing glib" - echo -e "*************************************************************************" - echo -e "*************************************************************************\n" - cd "$RISCV" - wget https://download.gnome.org/sources/glib/2.70/glib-2.70.5.tar.xz - tar -xJf glib-2.70.5.tar.xz - rm glib-2.70.5.tar.xz - cd glib-2.70.5 - meson setup _build --prefix="$RISCV" - meson compile -C _build - meson install -C _build - cd "$RISCV" - rm -rf glib-2.70.5 - fi - # Newer version of gmp needed for sail-riscv model - if [ ! -e "$RISCV"/include/gmp.h ]; then - echo -e "\n*************************************************************************" - echo -e "*************************************************************************" - echo -e "Installing gmp" - echo -e "*************************************************************************" - echo -e "*************************************************************************\n" - cd "$RISCV" - wget https://ftp.gnu.org/gnu/gmp/gmp-6.3.0.tar.xz - tar -xJf gmp-6.3.0.tar.xz - rm gmp-6.3.0.tar.xz - cd gmp-6.3.0 - ./configure --prefix="$RISCV" - make -j ${NUM_THREADS} - make install - cd "$RISCV" - rm -rf gmp-6.3.0 - fi -fi - -# gcc cross-compiler (https://github.com/riscv-collab/riscv-gnu-toolchain) -# To install GCC from source can take hours to compile. -# This configuration enables multilib to target many flavors of RISC-V. -# This book is tested with GCC 13.2.0 -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing RISC-V GNU Toolchain" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e riscv-gnu-toolchain) && ($(git clone https://github.com/riscv/riscv-gnu-toolchain) || true)) || ($(cd riscv-gnu-toolchain; git fetch; git rev-parse HEAD) != $(cd riscv-gnu-toolchain; git rev-parse master)) || (! -e $RISCV/riscv-gnu-toolchain/stamps/build-gcc-newlib-stage2) ]]; then - cd riscv-gnu-toolchain - git checkout master - git pull - ./configure --prefix="${RISCV}" --with-multilib-generator="rv32e-ilp32e--;rv32i-ilp32--;rv32im-ilp32--;rv32iac-ilp32--;rv32imac-ilp32--;rv32imafc-ilp32f--;rv32imafdc-ilp32d--;rv64i-lp64--;rv64ic-lp64--;rv64iac-lp64--;rv64imac-lp64--;rv64imafdc-lp64d--;rv64im-lp64--;" - make -j ${NUM_THREADS} -fi - -# elf2hex (https://github.com/sifive/elf2hex) -#The elf2hex utility to converts executable files into hexadecimal files for Verilog simulation. -# Note: The exe2hex utility that comes with Spike doesn’t work for our purposes because it doesn’t -# handle programs that start at 0x80000000. The SiFive version above is touchy to install. -# For example, if Python version 2.x is in your path, it won’t install correctly. -# Also, be sure riscv64-unknown-elf-objcopy shows up in your path in $RISCV/riscv-gnu-toolchain/bin -# at the time of compilation, or elf2hex won’t work properly. -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing elf2hex" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -export PATH=$RISCV/bin:$PATH -if [[ ((! -e elf2hex) && ($(git clone https://github.com/sifive/elf2hex.git) || true)) || ($(cd elf2hex; git fetch; git rev-parse HEAD) != $(cd elf2hex; git rev-parse master)) || (! -e $RISCV/bin/riscv64-unknown-elf-elf2bin) ]]; then - cd elf2hex - git reset --hard && git clean -f && git checkout master && git pull - autoreconf -i - ./configure --target=riscv64-unknown-elf --prefix="$RISCV" - make - make install -fi - - -# QEMU (https://www.qemu.org/docs/master/system/target-riscv.html) -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing QEMU" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e qemu) && ($(git clone --recurse-submodules https://github.com/qemu/qemu) || true)) || ($(cd qemu; git fetch --recurse-submodules=yes; git rev-parse HEAD) != $(cd qemu; git rev-parse master)) || (! -e $RISCV/include/qemu-plugin.h) ]]; then - cd qemu - git reset --hard && git clean -f && git checkout master && git pull --recurse-submodules - ./configure --target-list=riscv64-softmmu --prefix="$RISCV" - make -j ${NUM_THREADS} - make install -fi - -# Spike (https://github.com/riscv-software-src/riscv-isa-sim) -# Spike also takes a while to install and compile, but this can be done concurrently -# with the GCC installation. -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing SPIKE" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e riscv-isa-sim) && ($(git clone https://github.com/riscv-software-src/riscv-isa-sim) || true)) || ($(cd riscv-isa-sim; git fetch; git rev-parse HEAD) != $(cd riscv-isa-sim; git rev-parse master)) || (! -e $RISCV/lib/pkgconfig/riscv-riscv.pc) ]]; then - cd riscv-isa-sim - git reset --hard && git clean -f && git checkout master && git pull - mkdir -p build - cd build - ../configure --prefix="$RISCV" - make -j ${NUM_THREADS} - make install -fi - -# Wally needs Verilator 5.021 or later. -# Verilator needs to be built from source to get the latest version -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Verilator" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e verilator) && ($(git clone https://github.com/verilator/verilator) || true)) || ($(cd verilator; git fetch; git rev-parse HEAD) != $(cd verilator; git rev-parse master)) || (! -e $RISCV/share/pkgconfig/verilator.pc) ]]; then - # unsetenv VERILATOR_ROOT # For csh; ignore error if on bash - unset VERILATOR_ROOT # For bash - cd verilator - git reset --hard && git clean -f && git checkout master && git pull - autoconf # Create ./configure script - ./configure --prefix="$RISCV" # Configure and create Makefile - make -j ${NUM_THREADS} # Build Verilator itself (if error, try just 'make') - make install -fi - -# RISC-V Sail Model (https://github.com/riscv/sail-riscv) -# The RISC-V Sail Model is the golden reference model for RISC-V. It is written in Sail, -# a language designed for expressing the semantics of an ISA. Sail itself is written in -# OCaml, which is an object-oriented extension of ML, which in turn is a functional programming -# language suited to formal verification. The Sail compiler is installed with the opam OCcaml -# package manager. The Sail compiler has so many dependencies that it can be difficult to install, -# but a binary release of it should be available soon, removing the need to use opam. -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Opam" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -mkdir -p opam -cd opam -wget https://raw.githubusercontent.com/ocaml/opam/master/shell/install.sh -printf '%s\n' "$RISCV"/bin Y | sh install.sh # the print command provides $RISCV/bin as the installation path when prompted -cd "$RISCV" -rm -rf opam - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Sail Compiler" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -opam init -y --disable-sandboxing -opam update -y -opam upgrade -y -opam switch create 5.1.0 || opam switch set 5.1.0 -opam install sail -y - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing RISC-V Sail Model" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -if [[ ((! -e sail-riscv) && ($(git clone https://github.com/riscv/sail-riscv.git) || true)) || ($(cd sail-riscv; git fetch; git rev-parse HEAD) != $(cd sail-riscv; git rev-parse master)) || (! -e $RISCV/bin/riscv_sim_RV32) ]]; then - eval $(opam config env) - cd sail-riscv - git reset --hard && git clean -f && git checkout master && git pull - export OPAMCLI=2.0 # Sail is not compatible with opam 2.1 as of 4/16/24 - ARCH=RV64 make -j ${NUM_THREADS} c_emulator/riscv_sim_RV64 - ARCH=RV32 make -j ${NUM_THREADS} c_emulator/riscv_sim_RV32 - cd "$RISCV" - ln -sf ../sail-riscv/c_emulator/riscv_sim_RV64 bin/riscv_sim_RV64 - ln -sf ../sail-riscv/c_emulator/riscv_sim_RV32 bin/riscv_sim_RV32 -fi - -# riscof -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing riscof" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -pip3 install git+https://github.com/riscv/riscof.git - -# Download OSU Skywater 130 cell library -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing OSU Skywater 130 cell library" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -mkdir -p "$RISCV"/cad/lib -cd "$RISCV"/cad/lib -if [[ ((! -e sky130_osu_sc_t12) && ($(git clone https://foss-eda-tools.googlesource.com/skywater-pdk/libs/sky130_osu_sc_t12) || true)) || ($(cd sky130_osu_sc_t12; git fetch; git rev-parse HEAD) != $(cd sky130_osu_sc_t12; git rev-parse master)) ]]; then - cd sky130_osu_sc_t12 - git reset --hard && git clean -f && git checkout main && git pull -fi diff --git a/bin/wally-tool-chain-install.sh b/bin/wally-tool-chain-install.sh deleted file mode 100755 index 3a81e3f06..000000000 --- a/bin/wally-tool-chain-install.sh +++ /dev/null @@ -1,242 +0,0 @@ -#!/bin/bash -########################################### -## Tool chain install script. -## -## Written: Ross Thompson ross1728@gmail.com -## Created: 18 January 2023 -## Modified: 22 January 2023 -## Modified: 23 March 2023 -## Modified: 21 June 2024, Jordan Carlin jcarlin@hmc.edu -## -## Purpose: Open source tool chain installation script -## -## A component of the CORE-V-WALLY configurable RISC-V project. -## https://github.com/openhwgroup/cvw -## -## Copyright (C) 2021-23 Harvey Mudd College & Oklahoma State University -## -## SPDX-License-Identifier: Apache-2.0 WITH SHL-2.1 -## -## Licensed under the Solderpad Hardware License v 2.1 (the “License”); you may not use this file -## except in compliance with the License, or, at your option, the Apache License version 2.0. You -## may obtain a copy of the License at -## -## https:##solderpad.org/licenses/SHL-2.1/ -## -## Unless required by applicable law or agreed to in writing, any work distributed under the -## License is distributed on an “AS IS” BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, -## either express or implied. See the License for the specific language governing permissions -## and limitations under the License. -################################################################################################ - -# Check if root -ROOT=$( [ "${EUID:=$(id -u)}" = 0 ] && echo true || echo false); - -# All tools will be installed under the $RISCV directory. By default, if run as root (with sudo) -# this is set to /opt/riscv. Otherwise, it is set to ~/riscv. This value can be changed if needed. -if [ "$ROOT" = true ]; then - export RISCV="${1:-/opt/riscv}" -else - export RISCV="${1:-$HOME/riscv}" -fi - -export PATH=$PATH:$RISCV/bin:/usr/bin - -set -e # break on error - -# Modify accordingly for your machine -# Increasing NUM_THREADS will speed up parallel compilation of the tools -#NUM_THREADS=2 # for low memory machines > 16GiB -NUM_THREADS=8 # for >= 32GiB -#NUM_THREADS=16 # for >= 64GiB - -mkdir -p "$RISCV" - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Dependencies from Package Manager" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -# Update and Upgrade tools (see https://itsfoss.com/apt-update-vs-upgrade/) -sudo apt update -y -sudo apt upgrade -y - -# Packages are grouped by which tool requires them, split by line. -# If mutltipole tools need a package, it is included in the first tool only -# General/Wally specific, riscv-gnu-toolchain, qemu, spike, verilator, sail -sudo apt install -y git make cmake python3 python3-pip python3-venv curl wget ftp tar pkg-config dialog mutt ssmtp gfortran libboost-all-dev \ - autoconf automake autotools-dev curl libmpc-dev libmpfr-dev libgmp-dev gawk build-essential bison flex texinfo gperf libtool patchutils bc zlib1g-dev libexpat1-dev ninja-build libglib2.0-dev libslirp-dev \ - libfdt-dev libpixman-1-dev \ - device-tree-compiler libboost-regex-dev libboost-system-dev \ - help2man perl g++ clang ccache libgoogle-perftools-dev numactl mold perl-doc libfl2 libfl-dev zlib1g \ - opam z3 - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Setting up Python Environment" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -# Other python libraries used through the book. -cd "$RISCV" -if [ ! -e "$RISCV"/riscv-python/bin/activate ]; then - python3 -m venv riscv-python -fi -source "$RISCV"/riscv-python/bin/activate -pip install -U pip -pip install -U sphinx sphinx_rtd_theme matplotlib scipy scikit-learn adjustText lief markdown pyyaml testresources riscv_config -pip install -U riscv_isac # to generate new tests, such as quads with fp_dataset.py -source "$RISCV"/riscv-python/bin/activate - -# gcc cross-compiler (https://github.com/riscv-collab/riscv-gnu-toolchain) -# To install GCC from source can take hours to compile. -# This configuration enables multilib to target many flavors of RISC-V. -# This book is tested with GCC 13.2.0 -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing RISC-V GNU Toolchain" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e riscv-gnu-toolchain) && ($(git clone https://github.com/riscv/riscv-gnu-toolchain) || true)) || ($(cd riscv-gnu-toolchain; git fetch; git rev-parse HEAD) != $(cd riscv-gnu-toolchain; git rev-parse master)) || (! -e $RISCV/riscv-gnu-toolchain/stamps/build-gcc-newlib-stage2) ]]; then - cd riscv-gnu-toolchain - git checkout master - git pull - ./configure --prefix="${RISCV}" --with-multilib-generator="rv32e-ilp32e--;rv32i-ilp32--;rv32im-ilp32--;rv32iac-ilp32--;rv32imac-ilp32--;rv32imafc-ilp32f--;rv32imafdc-ilp32d--;rv64i-lp64--;rv64ic-lp64--;rv64iac-lp64--;rv64imac-lp64--;rv64imafdc-lp64d--;rv64im-lp64--;" - make -j ${NUM_THREADS} -fi - -# elf2hex (https://github.com/sifive/elf2hex) -#The elf2hex utility to converts executable files into hexadecimal files for Verilog simulation. -# Note: The exe2hex utility that comes with Spike doesn’t work for our purposes because it doesn’t -# handle programs that start at 0x80000000. The SiFive version above is touchy to install. -# For example, if Python version 2.x is in your path, it won’t install correctly. -# Also, be sure riscv64-unknown-elf-objcopy shows up in your path in $RISCV/riscv-gnu-toolchain/bin -# at the time of compilation, or elf2hex won’t work properly. -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing elf2hex" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -export PATH=$RISCV/bin:$PATH -if [[ ((! -e elf2hex) && ($(git clone https://github.com/sifive/elf2hex.git) || true)) || ($(cd elf2hex; git fetch; git rev-parse HEAD) != $(cd elf2hex; git rev-parse master)) || (! -e $RISCV/bin/riscv64-unknown-elf-elf2bin) ]]; then - cd elf2hex - git reset --hard && git clean -f && git checkout master && git pull - autoreconf -i - ./configure --target=riscv64-unknown-elf --prefix="$RISCV" - make - make install -fi - - -# QEMU (https://www.qemu.org/docs/master/system/target-riscv.html) -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing QEMU" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e qemu) && ($(git clone --recurse-submodules https://github.com/qemu/qemu) || true)) || ($(cd qemu; git fetch --recurse-submodules=yes; git rev-parse HEAD) != $(cd qemu; git rev-parse master)) || (! -e $RISCV/include/qemu-plugin.h) ]]; then - cd qemu - git reset --hard && git clean -f && git checkout master && git pull --recurse-submodules - ./configure --target-list=riscv64-softmmu --prefix="$RISCV" - make -j ${NUM_THREADS} - make install -fi - -# Spike (https://github.com/riscv-software-src/riscv-isa-sim) -# Spike also takes a while to install and compile, but this can be done concurrently -# with the GCC installation. -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing SPIKE" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e riscv-isa-sim) && ($(git clone https://github.com/riscv-software-src/riscv-isa-sim) || true)) || ($(cd riscv-isa-sim; git fetch; git rev-parse HEAD) != $(cd riscv-isa-sim; git rev-parse master)) || (! -e $RISCV/lib/pkgconfig/riscv-riscv.pc) ]]; then - cd riscv-isa-sim - git reset --hard && git clean -f && git checkout master && git pull - mkdir -p build - cd build - ../configure --prefix="$RISCV" - make -j ${NUM_THREADS} - make install -fi - - -# Wally needs Verilator 5.021 or later. -# Verilator needs to be built from scratch to get the latest version -# apt-get install verilator installs version 4.028 as of 6/8/23 -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Verilator" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -if [[ ((! -e verilator) && ($(git clone https://github.com/verilator/verilator) || true)) || ($(cd verilator; git fetch; git rev-parse HEAD) != $(cd verilator; git rev-parse master)) || (! -e $RISCV/share/pkgconfig/verilator.pc) ]]; then - # unsetenv VERILATOR_ROOT # For csh; ignore error if on bash - unset VERILATOR_ROOT # For bash - cd verilator - git reset --hard && git clean -f && git checkout master && git pull - autoconf # Create ./configure script - ./configure --prefix="$RISCV" # Configure and create Makefile - make -j ${NUM_THREADS} # Build Verilator itself (if error, try just 'make') - make install -fi - -# RISC-V Sail Model (https://github.com/riscv/sail-riscv) -# The RISC-V Sail Model is the golden reference model for RISC-V. It is written in Sail, -# a language designed for expressing the semantics of an ISA. Sail itself is written in -# OCaml, which is an object-oriented extension of ML, which in turn is a functional programming -# language suited to formal verification. The Sail compiler is installed with the opam OCcaml -# package manager. The Sail compiler has so many dependencies that it can be difficult to install, -# but a binary release of it should be available soon, removing the need to use opam. -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing Sail Compiler" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -cd "$RISCV" -opam init -y --disable-sandboxing -opam update -y -opam upgrade -y -opam switch create 5.1.0 || opam switch set 5.1.0 -opam install sail -y - -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing RISC-V Sail Model" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -if [[ ((! -e sail-riscv) && ($(git clone https://github.com/riscv/sail-riscv.git) || true)) || ($(cd sail-riscv; git fetch; git rev-parse HEAD) != $(cd sail-riscv; git rev-parse master)) || (! -e $RISCV/bin/riscv_sim_RV32) ]]; then - eval $(opam config env) - cd sail-riscv - git reset --hard && git clean -f && git checkout master && git pull - export OPAMCLI=2.0 # Sail is not compatible with opam 2.1 as of 4/16/24 - ARCH=RV64 make -j ${NUM_THREADS} c_emulator/riscv_sim_RV64 - ARCH=RV32 make -j ${NUM_THREADS} c_emulator/riscv_sim_RV32 - cd "$RISCV" - ln -sf ../sail-riscv/c_emulator/riscv_sim_RV64 bin/riscv_sim_RV64 - ln -sf ../sail-riscv/c_emulator/riscv_sim_RV32 bin/riscv_sim_RV32 -fi - -# riscof -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing riscof" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -pip3 install git+https://github.com/riscv/riscof.git - -# Download OSU Skywater 130 cell library -echo -e "\n*************************************************************************" -echo -e "*************************************************************************" -echo -e "Installing OSU Skywater 130 cell library" -echo -e "*************************************************************************" -echo -e "*************************************************************************\n" -mkdir -p "$RISCV"/cad/lib -cd "$RISCV"/cad/lib -if [[ ((! -e sky130_osu_sc_t12) && ($(git clone https://foss-eda-tools.googlesource.com/skywater-pdk/libs/sky130_osu_sc_t12) || true)) || ($(cd sky130_osu_sc_t12; git fetch; git rev-parse HEAD) != $(cd sky130_osu_sc_t12; git rev-parse master)) ]]; then - cd sky130_osu_sc_t12 - git reset --hard && git clean -f && git checkout main && git pull -fi